3-phenyl-9h-pyridazino(3,4-b)indoles

ABSTRACT

3-PHENACYLIDENE-2-OXOINDOLINE-7-CARBOXYLIC ACIDS AND ESTERS, PREPARED BY CONVERTING 2,3-DIOXOIDOLINE-7-CARBOXYLIC ACIDS TO 3-HYDROXY-3-PHENACYL-2-OXO COMPOUNDS AND SUBSEQUENT DEHYDRATION. THE 3-PHENACYLIDENE COMPOUNDS ARE REDUCED TO THE 3-PHENACYL COMPOUNDS AND THEN RING-CLOSED WITH HYDRAZINE TO GIVE 3-PHENYLPYRIDAZINOINDOLES. 2-OXOINDOLINE-7-CARBOXYLIC ACID ARE PREPARED BY STEPWISE REDUCTION OF THE 2-3-DIOXO COMPOUNDS. CERTAIN OF THE COMPOUNDS HAVE ANTIINFLAMMATORY ACTIVITY.

United Smtes Patent Office 3,592,813 Patented July 13, 1971 3,592,813 3-PHENYL-9H-PYRIDAZlN0[3,4-b]lNDOLES Kenneth G. Holden, Haddonfield, N.J., assignor to Smith Kline & French Laboratories, Philadelphia, Pa.

No Drawing. Original application Apr. 18, 1967, Ser. No. 631,619, now Patent No. 3,519,592. Divided and this application Apr. 21, 1970, Ser. No. 30,579

Int. Cl. C07d 51/04 US. Cl. 260-250 ABSTRACT OF THE DISCLOSURE B-phenacylidene-2-oxoindoline-7-carboxylic acids and esters, prepared by converting 2,3-dioxoindoline-7-carboxylic acids to 3-hydroxy-3-phenacyl-2-oxo compounds and subsequent dehydration. The S-phenacylidene compounds are reduced to the 3-phenacyl compounds and then ring-closed with hydrazine to give 3-phenylpyridazinoindoles. 2-oxoindoline-7-carboxylic acids are prepared by stepwise reduction of the 2-3-dioxo compounds. Certain of the compounds have antiinflammatory activity.

3 Claims This application is a division of copending application Ser. No. 631,619, filed Apr. 18, 1967 now Pat. No. 3,519,- 592, Aug. 7, 1967.

This invention relates to heterocyclic compounds having utility as antiinflammatory agents or as intermediates therefor. In particular, the invention relates to indolecarboxylic acid and pyridazinoindolecarboxylic acid compounds.

One group of compounds within the scope of the invention is represented by the following structural formula:

(I) X -Q O wherein R is hydrogen or lower alkyl, and X is hydrogen, lower alkyl, lower alkoxy, chloro, bromo, fluoro, or trifiuoromethyl.

A second group of compounds within the scope of the invention is represented by structural Formula 11.

OH (R X H no 0 c In wherein R and X are as defined above.

A third group of compounds within the scope of the invention is represented by structural Formula lIl.

H 0 O C (III) wherein R and X are as defined above.

A fourth group of compounds within the scope of the invention is represented by structural Formula IV.

I I t wherein R and X are as defined above.

A fifth group of compounds within the scope of the invention is represented by structural Formula V.

wherein R is as defined above.

A final group of compounds within the scope of the invention is represented by structural Formula VI.

wherein R is as defined above.

The terms lower alky or lower alkoxy" for purposes of this invention are intended to represent those alkyl and alkoxy groups having up to about 4 carbon atoms.

Also within the scope of the invention are the pharmaceutically acceptable acid addition salts of the compounds of Formula III. Such salts include the hydrochloride, sulfate, hydrobromide, nitrate, acetate, maleate, and tartrate.

The compounds of the invention are prepared by methods described hereinbelow according to the sequence illustrated in the following chart.

l: O N H The 3-hydroxy 3 phenacyl-2-oxo-7-indolinecarboxylic acids and esters of Formula II are prepared by condensing the corresponding isatincarboxylic acid or ester VII with the appropriate acetophenone in the presence of a base such as diethylamine. The reaction is preferably conducted in refluxing alcohol. The phenacylidene compounds of Formula I are prepared by dehydrating the phenacyl compounds of Formula II using glacial acetic acid containing a small amount of hydrochloric acid on the steam bath. The plienacyl compounds of Formula IV are obtained by reduction of the phenacylidene compounds of Formula I with sodium hydrosulfite in aqueous alcohol. The 3-phenyl-9H-pyridazino[3,4-b]indoles of Formula III are prepared by treating the phenacyl compounds IV with hydrazine in the presence of oxygen and an acid such as acetic acid. The hydroxy-Z-oxo compounds of Formula VI are prepared by reducing the 3-oxo group of the starting isatin compounds VII with sodium hydrosulfite. Reduction of this 3-hydroxy .group to give the 2- oxo compounds of Formula V is accomplished with sodium and lead.

The carboxylic acid compounds (R H) are prepared either by using a carboxylic acid as starting material or by hydrolyzing an ester The esters in turn may be prepared either by using the corresponding esters as starting material or by esterifying a carboxylic acid product.

The compounds of Formulas I, III, and V possess antiinflamrnatory activity. Among the preferred compounds are 3-(p-fluorophenacylidene)-2-oxoindoline-7-carboxylic acid,

3- (m-fluorophenacylidene -2oxoindoline-7-carboxylic acid,

3- (m-trifiuoromethylphenacylidene) -2-oxoindoline-7- carboxylic acid, 3-phenyl-9H-pyridazino 3,4-b indole-S-carboxyhc acid,

and 2-0xoindoline-Tcarboxylic acid,

which possess antiinflammatory activity in rats when administered orally and subcutaneously in doses of 4050 mg./kg.

These compounds are formulated for use in inflammatory conditions by combining them either in the form of the free bases or zwitterions, their pharmaceutically acceptable acid addition salts, when such exist, or their alakali metal or amine salts with standard pharmaceutical excipients according to conventional practice in order to prepare tablets, capsules, injectables, and ointments.

The compounds of Formulas II, IV, and VI are useful as intermediates for preparing the antiinfiammatory agents. The 3-hydroxy-3-phenacyl compounds of Formula II are useful for preparing both the 3-phenacylidene compounds of Formula I and the pyridazinoindole compounds of Formula III, while the 3-phenacyl compounds of Formula IV are useful for preparing the pyridazinoindole compounds. The 3-hydroxy-2-oxoindolines of Formula V'I are useful for preparing the 2-oxoindolines of Formula V.

The following examples are intended to illustrate the preparation of the compounds of the invention, but are not to be construded as limiting the scope thereof. Temperatures stated are in degrees Centigrade.

4 EXAMPLE 1 3-hydroxy-3-phenacyl-2-oxoindoline-7-carboxylic acid methyl ester A suspension of 5.0 g. (26 mmoles) of methyl 2,3-dioxoindoline-7-carboxylate in 100 ml. of boiling ethanol is treated with 3.7 g. (31 mmoles) of acetophenone and 15 drops of diethylamine. Boiling is continued for 1 hour after complete solution is achieved and the solution is then allowed to stand overnight. The mixture is cooled and the resulting precipitate filtered off and washed with ether to give the title product, M.P. 157-160. A second crop is obtainable from the mother liquor. The compound is recrystallized from ethanol and melts at 158- l60".

EXAMPLE 2 3-hydroxy-3-phenacyl-2-oxoindoline-7-carboxylic acid To a boiling suspension of 2 g. (11.15 mmoles) of 2,3-dioxoindoline-7-carboxylic acid in 60 ml. of ethanol is added 1.5 g. (12.5 mmoles) of acetophenone and 1.3 ml. (0.92 g. 12.7 mmoles) of diethylamine. The solution is allowed to stand overnight, concentrated to about onehalf volume, cooled, and filtered. The dried precipitate of the diethylamine salt of the product is recrystallized from methanohethyl acetate and melts at 183 dec.

EXAMPLE 3 3-hydroxy-3-(m-fluorophenacyl -2-oxoindoline-7- c-arboxylic acid A mixture of 5.72 g. (30 mmoles) of 2,3-dioxoindoline- T-carboxylic acid, 3.6 ml. (2.55 g., 35 mmoles) of diethylamine, and 4.14 g. (30 mmoles) of m-fluoroacetophenone in 100 ml. of absolute ethanol is heated until solution is complete and then allowed to stand overnight. The mixture is then cooled and filtered to give the title product, M.P. l58l60 dec.

EXAMPLE 4 3-hydroxy-3- (p-fluorophenacyl -2-oxoindoline-7- carboxylic acid Use of p-fluoroacetophenone in the procedure of Example 3 instead of m-fluoroacetophenone results in the formation of the title product, M.P. l73l77 dec.

EXAMPLE 5 3 -hydroxy-3- m-trifluoromethylphenacyl) -2-oxoindolinc- 7-carboxy1ic acid Use of 5.64 g. (30 mmoles) of m-trifiuoromethylacetophenone in the procedure of Example 3 instead of m-fiuoroacetophenone results in the formation of the title product, M.P. l03-l06. The product is isolated by evaporating the ethanol, dissolving the residue in hot ethyl acetate, treating with charcoal, filtering, and allowing the product to crystallize from the filtrate.

EXAMPLE 6 3-phenacylidene-2-oxoindoline-7-carb0xylic acid methyl ester A suspension of 6.8 g. (22 mmoles) of 3-hydroxy-3 phenacyl-2-oxoindoline-7-carboxylic acid methyl ester in 35 ml. of glacial acetic acid containing 1 ml. of cone. HCl is heated on the steam bath. After a few minutes solution is complete. Upon continued heating a precipitate forms, the mixture is diluted with 35 ml. of ethanol, cooled and filtered. The recovered precipitate of the title product is recrystallized from ethanol; M.P. 192-193".

EXAMPLE 7 3-phenacylidene-2-oxoindoline-7-carboxylic acid A suspension of 5.48 g. (13.6 mmoles) of 3-hydroxy-3- phenacyl-Z-oxoindoline-7-carboxylic acid in 50 ml. of glacial acetic acid containing 3 ml. (36 mmoles) of cone. HCl is heated on the steam bath with stirring. After 30 minutes, the thick mixture is diluted with alcohol and water, and filtered. Recrystallization from ethanol-water gives the title product, M.P. 25 3256 dec.

EXAMPLE 8 B-(m-iluorophenacylidene)-2-oxoindoline-7- carboxylic acid A suspension of 7.7 g. (19.2 mrnoles) of 3-hydroxy-3- (m-fiuorophenacyl)-2-oxoindoline 7 carboxylic acid in 100 ml. of glacial acetic acid is treated with ml. of cone. HCl and heated to boiling with stirring. When the reaction has been indicated by thin layer chromatography to be complete, the mixture is diluted to 200 ml. with water and ethanol, cooled, and filtered. Recrystallization of the recovered precipitate from ethanol-ethyl acetate gives the title product, M.P. 253-255 EXAMPLE 9 3-(p-fluorophenacylidene)-2-oxoindoline-7- carboxylic acid Use of 8.7 g. (21.6 mrnoles) of 3-hydroxy-3-(p-fluorophenacyl)-2-oxoindoline 7 carboxylic acid in the procedure of Example 8 instead of the m-fiuoro compound results in the formation of the title product, recrystallized from ethanol-ethyl acetate; M.P. 26 3-268".

EXAMPLE 10 3- (m-trifiuorornethylphenacylidene -2-oxoindoline- 7-carboxy1ic acid Use of 7.1 g. (15.7 mrnoles) of 3-hydroxy-3-(m-trifluoromethylphenaicyl)-2-oxoindoline-7-carboxylic acid in the procedure of Example 8 instead of the m-fluorophenacyl compound results in the formation of the title product, recrystallized from ethyl acetate; M.P. 235-237".

EXAMPLE ll 3-phenacyl-2-oxoindoline-7-carboxylic acid A suspension of 11.2 g. (38.2 mrnoles) of 3-phenacylidene-2-oxoindoline-7-carboxylic acid in 150 ml. of alcohol is heated with stirring and treated with g. of Na S O in 50 ml. of water. Heating is continued until most of the color is dissipated and the mixture is then allowed to stir on a warm hot plate for minutes. The mixture is diluted with Water, seeded, and allowed to stand overnight in the refrigerator. The resulting precipitate is filtered off, dried, and recrystallized from ethanol-Water to give the title product M.P. 243246.

EXAMPLE 12 Use of 3-phenacylidene-2-oxoindoline-7-carboxylic acid methyl ester, 3-(m-fiuorophenacylidene)-2-oxoindoline-7- carboxylic acid, 3-(p-fiuorophenacylidene)-2-oxoindoline- 7-carboxylic acid, or S-(m-trifluoromethylphenacylidene)- 2-oxoindoline-7-carboxylic acid as starting material in the procedure of Example 11 results in the formation of 3- phenacyl-Z-oxoindoline-7-carboxylic acid methyl ester, 3- (m-fluorophenacyl)-2-oxoindoline-7-carboxylic acid, 3-(pfiuorophenacyl)-2-oxoindoline-7-carboxylic acid, or 3-(mtrifluoromethylphenacyl)-2-oxoindoline-7-carboxylic acid, respectively.

EXAMPLE l3 3-phenyl-9H-pyridazino[3,4-b] indole-8-carboxylic acid A suspension of 6 g. (20.3 mrnoles) of 3phenacyl-2- oxoindoline-7-carboxylic acid in ml. of glacial acetic acid is heated and stirred while 3 ml. of hydrazine hydrate is added. The mixture is heated to near boiling and stirred for 2 hours, diluted with water, cooled, and filtered. The recovered precipitate is recrystallized from dimethylformamide-water to give the title product, M.P. 282-284".

6 EXAMPLE 14 Use of 3 phenacyl 2 oxoindoline-7-carboxylic acid methyl ester, 3-(m-fluorophenacyl)-2-oxoindoline-7-carboxylic acid, 3-(p-fiuorophenacyl)-2-oxoindoline 7 carboxylic acid, or 3-(m-trifluoromethylphenacyl)-2-oxoindoline-7-carboxylic acid as starting material in the procedure of Example 13 results in the formation of 3-phenyl-9H-pyridazino[3,4-b]indole-S-carboxylic acid methyl ester,

3-(m-fluorophenyl)-9H-pyridazino[3,4-bJindole- S-carboxylic acid,

3-(p-fiuorophenyl)-9H-pyridazino[3,4-b]indole- 8-carboxylic acid, or

3- (m-trifiuoromethylphenyl -9H-pyridazino[3,4-b] indole- 8-carboxylic acid, respectively.

EXAMPLE l5 3-hydroxy-2-oxoindoline-7-carboxylic acid A suspension of 19.0 g. of 2,3-dioxoindoline-7-carboxylic acid in 200 ml. of hot water is stirred and heated to boiling while 34 g. of Na S O is added in portions. The mixture is boiled for 20 minutes, cooled, and then continuously extracted with ether for 3 days. Evaporation of the ether and recrystallization of the residue from methanol gives the title product, M.P. 203-207.

Use of the methyl ester of the above starting material results in the formation of the methyl ester of the product.

EXAMPLE l6 2-oxoindoline-7-carboxylic acid A solution of 3.0 g. (15.5 mmoles) of 3-hydroxy-2- oxoindoline-7-carboxylic acid in 30 ml. of water containing 2.0 g. (23.8 mrnoles) of NaHCO: is stirred at 0 while a stream of CO is bubbled in, and 10 g. of Na-Pb (9.6% Na; 0.96 g. of Na, 42 mrnoles) is added in several portions over a 2 hour period. After about 3 hours, when thin layer chromatography indicates the reaction to be complete, the mixture is filtered, the filtrate acidified, and the resulting precipitate collected. Recrystallization from methanol gives the title product, M.P. 244-246".

Use of the methyl ester gives the corresponding ester product.

EXAMPLE 17 When the following acetophenones are used as starting materials in the procedure of Example 2 in place of acetophenone, the corresponding listed 3-hydroxy-3-phenacyl compounds are obtained.

Acetophenone 3-hydroxy compound m-Bromoac .tophenone p-Methylacetophenone.

o-Butylacetoph enone p-Ethoxyacctophenone.

When the above listed 3-hydroxy-3-phenacyl compounds are dehydrated according to the procedure of Example 7, the following B-phenacylidene compounds are obtained, respectively.

3-(o-chlorophenacylidene)-2-oxoindoline-7-carboxylic acid 3-(m-bromophenacylidene)-2-oxoindoline-7-carboxylic acid 3- p-methylphenacylidene -2-oxoindoline-7-carboxylic acid 3-(o-butylphenacylidene)-2-oxoindoline-7-carboxylic acid 3-(p-ethoxyphenacylidene)-2-oxoindoline-7-carboxylic acid When the above listed 3-phenacylidene compounds are reduced with Na S O according to the procedure of Example 11, the following 3-phenacyl compounds are obtaincd, respectively:

3- (o-chlorophenacyl) -2-oxoindoline-7-carboxylic acid B-(m-bromophenacyl) -2-oxoindoline-7-carboxylic acid 3-(p-methylphenacyl)-2-oxoindoline-7carboxylic acid 3-(o-butylphenacyl)-2-oxoindoline-7-carboxylic acid 3- (p-ethoxyphenacyl -2-oxoindoline-7-carboxylic acid When the above listed 3-phenacyl compounds are condensed with hydrazine hydrate according to the procedure of Example 13, the following pyridazinoindolecarboxylic acids are obtained, respectively.

3-( o-chlorophenyl -9H-pyridazino[ 3,4-b] indole- 8-carboxylic acid 3-(m-bromophenyl -9H-pyridazino 3 ,4-b1indole- S-carboxylic acid 3-(p-tolyl)-9H-pyridazino[3,4-b1indole- 8-carboxylic acid 3- (o-butylphenyl -9H-pyridazino[ 3 ,4-b] indole- S-carboxylic acid 3- (p-ethoxyphenyl -9H-pyridazino 3 ,4-b indole- 8-carboxylic acid Esterification of any of the above carboxylic acid products with methanol, ethanol, propanol, or butanol, using acid catalysis with hydrogen chloride or sulfuric acid, results in the formation of the correspondingrnethyl, ethyl, propyl, or butyl ester.

When the above pyridazinoindole carboxylic acids or esters are dissolved or suspended in anhydrous alcohol,

acetone, or ether, and hydrogen chloride, maleic acid, or a similar pharmaceutically acceptable acid added, as such of as an ethereal, acetone, or alcoholic solution, the cor responding salt is obtained.

Alkali metal salts such as sodium or potassium, or amine salts such as the ammonium, triethylammonium salts, etc. are prepared by treating a free acid compound in solution with the alkali metal hydroxide, bicarbonate, or carbonate, or with ammonia, triethylamine, or other amine.

I claim:

1. A compound of the formula hydrogen.

3. A compound as claimed in claim 2, being the compound 3-phenyl-9H-pyridazino 3 ,4-b] indoIe-S-carboxylic acid.

References Cited Chemical Abstracts: Vol. 69, p. 2955 (1968).

NICHOLAS s. RIZZOJPriinary Examiner US. Cl. X.R. 424250 

